JP4522171B2 - Access system optical fiber cable branch system route construction method and access optical fiber system - Google Patents

Description

  The present invention relates to a branch system route construction method for an access optical fiber cable and an access optical fiber system.

Conventionally, when an access optical fiber cable is laid using a utility pole as a support, a branch line route is constructed with reference to a distribution line route. That is, as shown in FIG. 2, the first branch system route 121 (branch system optical fiber cable) is branched and laid from the main line closure 110 installed in the nearest main system route 100 (main system optical fiber cable). Furthermore, the second to fifth branch system routes 122 to 125 are branched from the first to fourth branch line closures 131 to 134 installed in the first branch system route 121 at the road intersection. . In addition, since the 1st thru | or 5th branch system route | root 121-125 laid in this way has the shape of the fish bone, such a structure is called a "fish bone type structure" below.
Further, the supply of the optical fiber core wire to each user branches the drop system route (drop optical fiber cable) from the drop closures 141 to 160 installed in the first to fifth branch system routes 121 to 125. Has been done.

In addition, in order to reduce the construction cost for cable laying, in order to minimize the laying route length and systematization and efficiency of the expansion method, the distribution point is set in each distribution area so that the distance from the center is minimized. The cable laying route setting method that selects the route so that the common part of the feeder route and the wiring route is as large as possible, and expands the route based on the feeder route and the prescribed wiring route It is disclosed in Patent Document 1 shown below.
Japanese Patent Laid-Open No. 5-60921

However, in the method of constructing a branch system route with reference to the above-mentioned distribution line route, one branch system route (the example shown in the schematic diagram explaining the branch system route construction method of the conventional access system optical fiber cable in FIG. 2) Then, since a plurality of branch system routes (in the example shown in FIG. 2, the second to fifth branch system routes 122 to 125) are branched from the first branch system route 121), the light of the main system route It is necessary to determine the connection form of the closure in consideration of the number of fiber cores, the number of branch optical fiber cores, the number of branches, and the like.
In addition, a predetermined number of optical fiber cores among the optical fiber cores of the first branch system route 121 are branched to the second to fifth branch system routes 122 to 125 regardless of the presence or absence of the user. Since the branched optical fiber is cut at the branch points (first to fourth branch line closures 131 to 134), the fiber after the branch point becomes a dark fiber (unused optical fiber core). For this reason, there also exists a problem that the core line utilization factor of the 1st branch system route | root 121 falls.

  An object of the present invention is to provide a branch system route construction method for an access optical fiber cable and an access optical fiber system that can easily manage the cores and improve the utilization factor of the cores.

The branch system route construction method for an access optical fiber cable according to the present invention is a branch system route construction for an access optical fiber cable for branching a branch system route (20) from a trunk system route (10) and laying it in an installation area. It is a method, The electric pole used as a support is predetermined among the electric poles in the said installation area, and as many as the predetermined electric pole is possible, one branch system route (20) does not cross | intersect. The installation route of the branch system route (20) is selected so that the branch system route (20) meanders in the installation area while facing each other, and the opposite branch system route (20) supply but to provide optical fibers to each user's home, laid said supporting line system route (20) to the laying area, wherein the branch line system route (20), the optical fiber to each user Drop closures (41-51) are installed, and after the branch line route (20) is laid, there is an area where the drop route cannot be drawn from the branch line route (20) due to an increase in users, etc. A new branch line closure (31) is installed in the branch line route (20), and another branch line route is branched from the new branch line closure (31).
Alternatively, a branch system route construction method for an access optical fiber cable for branching a branch system route (20) from a trunk system route (10) and laying it in a laying area, and among the utility poles in the laying area, The telephone pole used as a support is determined in advance, and as many of the predetermined telephone poles as possible are provided, one branch line route (20) is traced with one stroke without crossing, and the branch line route (20) is The branch line system (20) is selected so as to surround the central portion of the installation area, and the branch line system (20) supplies an optical fiber core to each user's house. A route (20) is laid in the laying area, drop closures (41 to 51) for supplying an optical fiber core wire to each user are installed in the branch line route (20), and the branch line route (20) Laying After that, when there is an area where the drop route cannot be drawn from the branch route (20) due to an increase in the number of users, a new branch line closure (31) is installed on the branch route (20). Another branch line route may be branched from the new branch line closure (31).
The laying route of the branch line route (20) may be selected so that the distance between the mutually opposing portions of the branch line route (20) is about 300 m or less.
Drop closures (41 to 51) may be installed in the branch line route (20) every about 150 m.

The access optical fiber system of the present invention includes a trunk line (10), a trunk line closure (11) provided in the trunk line route (10), and the trunk line system using the trunk line closure (11). A branch line route (20) branched from the route (10) and laid in the laying area, and drop closures (41 to 51) installed in the branch line route (20), Among the utility poles, the branch poles (20) are opposed to each other so that the utility poles to be used as the support are determined in advance, and as many of the predetermined supports as possible are traced with one stroke without crossing. while meandering laying route of the laying area, and the branch line system route (20) to its opposite, laid in the laying region to provide optical fiber in each user's house, the branch line system Lou In order to branch another branch system route from the branch system route (20) when an area where a drop system route cannot be drawn from the branch system route (20) after laying (20) is created, An access optical fiber system, further comprising another branch line closure (31) installed in the system route (20). It is characterized by that.
Alternatively, the main system route (10) is branched from the main system route (10) using the main system route (10), the main system closure (11) provided on the main system route (10), and the main system closure (11). A branch line route (20) laid in the laying area, and drop closures (41 to 51) installed in the branch line route (20) every about 150 m, and among the utility poles in the laying area The utility line to be used as a support is determined in advance, and the branch line route (20) is optical fiber core to each user's house so that the predetermined support can be traced with one stroke without crossing as much as possible. laid in the laying region to supply line, the not withdraw drop system route branch system root (20) said supporting line system route After laying (20) when the region has occurred, the To branch another branch based route-linear root (20), may be one further comprising another branch closure (31) installed in said supporting beam system root (20).

The branch system route construction method and the access system optical fiber system of the access system optical fiber cable of the present invention have the following effects.
(1) Since the entire laying area can be covered with only one branch line route (20), the number of optical fiber core wires, the number of branch optical fiber core wires, the number of branches, etc. of the main route route (10) are considered. Therefore, it is not necessary to determine the connection form of the closure, and the core management becomes easy.
(2) Since the optical fiber core wire of the branch system route (20) is branched only into the drop system route in principle, the branch points (drop closures (41 to 51) of the optical fiber core wires of the branch system route (20) are used. )) After that, since only dark fibers (unused optical fiber cores) are actually connected to the user, the number of dark fibers in the branch system route (20) can be reduced, and the cores can be used. The rate can be improved.
(3) Even if there is an area in which a drop route cannot be drawn from the branch route (20) after the branch route (20) has been laid due to an increase in the number of users, the branch line closure (31) is connected to the branch route ( It is possible to easily cope with the problem by installing another branch line route (20) from this branch line closure (31).

  The purpose of the present invention is to facilitate the management of the core wire and to improve the utilization rate of the core wire, with one branch line route laid in the laying area, in other words, in the laying area. This was realized by laying a branch line route in the laying area so that as many traces as possible could be traced with a single stroke without crossing as many as possible.

Embodiments of an access system optical fiber cable branch line route construction method and an access system optical fiber system according to the present invention will be described below with reference to the drawings.
FIG. 1 is a schematic diagram illustrating a branch system route construction method for an access optical fiber cable according to an embodiment of the present invention.
In the branch system route construction method for an access optical fiber cable according to one embodiment of the present invention, as shown in FIG. 1, one branch system route 20 (branch system optical fiber cable) is installed in the installation area. In other words, among the utility poles that are to be supported in the laying area, the utility pole to be used is determined in advance, and the branch line route 20 is laid so that the predetermined utility pole can be traced with one stroke without crossing as much as possible. Lay in the area. Hereinafter, the configuration shown in FIG. 1 is referred to as a “one-stroke type configuration”.
At this time, the laying route of the branch line route 20 is selected so that the interval between the portions of the branch line route 20 facing each other is equal to or less than a predetermined interval (for example, about 300 m). Further, drop closures 41 to 51 are installed at predetermined intervals (for example, intervals of about 150 m) in the branch line route 20 so that the drop route (drop optical fiber cable) can be easily pulled out. As a result, the entire laying area can be covered with only one branch system route 20 branched from the main line closure 11 installed in the nearest main system route 10 (main system optical fiber cable).

  In addition, after the branch line route 20 is laid in the one-stroke type configuration as described above, if there is an area where the drop route cannot be drawn from the branch line route 20 due to an increase in the number of users or the like, it is installed in the main route 10 In the same manner, another branch system route may be laid in a one-stroke type configuration from another trunk line closure, so that a drop system route can be drawn. However, as shown in FIG. Another branch line route may be branched from the branch line closure 31 by being installed in the route 20.

By using the branch system route construction method for an access optical fiber cable according to the present embodiment described above, an access optical fiber system according to an embodiment of the present invention described below can be configured.
The access optical fiber system according to the present embodiment includes a trunk route 10, a trunk closure 11 provided in the trunk route 10, and a branch from the trunk route 10 using the trunk closure 11, and is laid in a construction area. When the branch line route 20 is dropped, the drop closures 41 to 51 installed on the branch line route 20, and the area where the drop route cannot be drawn from the branch line route 20 after the branch line route 20 is laid. A branch line closure 31 installed on the branch line route 20 is provided to branch another branch line route from the branch line route 20. Here, the branch line system route 20 is laid out so that, among the power poles (supports) in the laying area, the power poles to be used are determined in advance, and the predetermined power poles are traced with one stroke without crossing as much as possible. It is laid in the area.

FIG. 3 is a schematic diagram showing an example of comparison between a branch system route construction method for an access optical fiber cable and a conventional branch system route construction method for an access optical fiber cable according to an embodiment of the present invention. FIG. 4 is a schematic view showing another example of comparison between a branch system route construction method for an access optical fiber cable and a conventional branch system route construction method for an access optical fiber cable according to an embodiment of the present invention.
Next, an example of constructing a branch system route using the branch system route construction method of the access system optical fiber cable according to this embodiment is compared with the conventional branch system route construction method of the access system optical fiber cable. And with reference to FIG.
First, the example shown in FIG. 3 will be described.
In a conventional access system optical fiber cable branch system route construction method, as shown by a broken line in FIG. 3, two branch system routes (first and second) are connected from the trunk line closure 211 installed in the trunk system route 210. After the branch line routes 221 and 222) are drawn across the laying area, the first to second branch line routes 223 to 225 are alternately arranged from the first and second branch line routes 221 and 222. The structure of the fish bone is constructed by branching each of the three branch line closures (not shown). In addition, as a support, the utility pole (it shows by (circle) and (double-circle)) provided along the road is used.
On the other hand, in the branch system route construction method of the access system optical fiber cable according to the present embodiment, among the utility poles in the installation area, the distance between the mutually facing portions of the branch system route 321 is equal to or less than a predetermined distance. The electric pole used as a support is predetermined. In the case of this example, in addition to the utility pole used in the conventional branch system route construction method for the access system optical fiber cable, the first branch system route 221 in the upper left part of the figure is more than the fifth branch system route 225. A utility pole provided on a road connecting the laid road and the road on which the second branch system route 222 is laid is predetermined as a utility pole used as a support.
Then, trace the predetermined power pole as much as possible and with a single stroke without intersecting (in this case, the branch line route 321 meanders in the laying area). By selecting a laying route, a one-stroke type construction is constructed. Specifically, as shown by a solid line in FIG. 3, after one branch line route 321 is drawn from the main line closure 211 installed in the main line route 210, the branch line route of the conventional access optical fiber cable is drawn. In the construction method, the second branch system route 222, the fourth branch system route 224, the portion between the fourth branch system route 224 and the third branch system route 223 of the first branch system route 221, the third Branch line route 223, second branch line route 222 between third branch line route 223 and fifth branch line route 225, fifth branch line route 225, first branch line route 221 A one-stroke type configuration is constructed by laying through the upper left portion of the second branch system route 225 in the drawing and the upper right portion of the second branch system route 222 in the drawing.
Thereby, in the branch system route construction method of the access system optical fiber cable according to the present embodiment, since the entire laying area can be covered with only one branch system route 321, the number of optical fiber cores of the trunk system route 210 is increased. Therefore, it is not necessary to determine the connection form of the closure in consideration of the number of branched optical fibers and the number of branches, and the management of the cores is facilitated.
Further, since it is not necessary to branch the optical fiber core wire of the branch system route 321 to another branch system route, the other branch system routes of the optical fiber core wire of the branch system route 321 as in the conventional fish-bone configuration are used. The optical fiber core wire which becomes a dark fiber can be eliminated by branching to the core wire, and the utilization rate of the core wire can be improved.

Next, the example shown in FIG. 4 will be described.
In the conventional branch system route construction method for an access optical fiber cable, as shown by a broken line in FIG. 4, the first branch system route 421 is installed from the main line closure 211 installed in the main system route 210 to approximately the center of the laying area. After pulling out through the section, the second and third branch system routes 422 and 423 are branched using the first and second branch line closures (not shown), respectively, thereby constructing the bone structure of the fish To do.
On the other hand, in the branch system route construction method of the access system optical fiber cable according to the present embodiment, among the utility poles in the installation area, the distance between the mutually facing portions of the branch system route 321 is equal to or less than a predetermined distance. The electric pole used as a support is predetermined. In the case of this example, in addition to the utility pole used in the conventional branch system route construction method for the access system optical fiber cable, the right end of the second branch system route 422 and the right end of the third branch system route 423 are shown. And a utility pole provided on the road connecting the left portion of the second branch system route 422 in the drawing and the left end of the third branch system route 423 in the drawing are used as a support. It is predetermined as a utility pole.
Thereafter, the branch line route 521 is so traced as much as possible without crossing the predetermined power pole (in this case, the branch line route 521 surrounds the central portion of the laying area). Build a one-stroke type configuration by selecting a laying route. Specifically, as shown by a solid line in FIG. 4, after one branch line route 521 is drawn from the main line closure 211 installed in the main line route 210, the branch line route of the conventional access optical fiber cable is drawn. In the construction method, the first branch line route 421, the second branch line route 422 on the right side of the drawing, the third branch line route 423, and the second branch line route 422 on the left side of the drawing are passed. Build a one-stroke type composition by laying.
Thereby, in the branch system route construction method of the access system optical fiber cable according to the present embodiment, since the entire laying area can be covered with only one branch system route 521, the number of optical fiber cores of the trunk system route 210 is increased. Therefore, it is not necessary to determine the connection form of the closure in consideration of the number of branched optical fibers and the number of branches, and the management of the cores is facilitated.
In addition, since it is not necessary to branch the optical fiber core wire of the branch system route 521 to another branch system route, other branch system routes of the optical fiber core wire of the branch system route 521 as in the conventional fish-bone configuration are used. The optical fiber core wire which becomes a dark fiber can be eliminated by branching to the core wire, and the utilization rate of the core wire can be improved.

  The branch system route construction method and the access system optical fiber system of the access system optical fiber cable of the present invention can be used to construct an access system optical fiber network.

It is the schematic explaining the branch line type | system | group route construction method of the access type | system | group optical fiber cable by one Example of this invention. It is the schematic explaining the branch line type | system | group route construction method of the conventional access type | system | group optical fiber cable. It is the schematic which shows an example of the comparison of the branch system route construction method of the access type | system | group optical fiber cable by one Example of this invention, and the branch type system route construction method of the conventional access type | system | group optical fiber cable. It is the schematic which shows the other example of the comparison of the branch system route construction method of the access system optical fiber cable by one Example of this invention, and the branch system route construction method of the conventional access system optical fiber cable.

10,210 Trunk line route 11,2111 Trunk line closure 20,321,521 Branch line route 31 Branch line closure 41-51 Drop closure

Claims (6)

A branch system route construction method for an access optical fiber cable for branching a branch system route (20) from a trunk system route (10) and laying it in an installation area,
Of the utility poles in the laying area, the utility poles to be used as the support are determined in advance, and as many of the predetermined utility poles as possible can be traced in one stroke without crossing one branch system route (20). Selecting the laying route of the branch line route (20) so that the branch line route (20) meanders in the laying area while facing each other,
And the branch line route (20) is laid in the laying area so that the opposite branch line route (20) supplies an optical fiber core wire to each user's house ,
In the branch system route (20), a drop closure (41 to 51) for supplying an optical fiber core wire to each user is installed,
After the installation of the branch system route (20), if there is an area where the drop system route (20) cannot be drawn from the branch system route (20) due to an increase in the number of users, a new branch line is added to the branch system route (20). A branch system route construction method for an access optical fiber cable, characterized in that a closure (31) is installed and another branch system route is branched from the new branch line closure (31). A branch system route construction method for an access optical fiber cable for branching a branch system route (20) from a trunk system route (10) and laying it in an installation area,
Of the utility poles in the laying area, the utility poles to be used as the support are determined in advance, and as many of the predetermined utility poles as possible can be traced in one stroke without crossing one branch system route (20). Selecting a laying route for the branch line route (20) so that the branch line route (20) surrounds the central portion of the laying area;
And the branch line route (20) is laid in the laying area so that the optical fiber core wire is supplied to each user's house ,
In the branch system route (20), a drop closure (41 to 51) for supplying an optical fiber core wire to each user is installed,
After the installation of the branch system route (20), if there is an area where the drop system route (20) cannot be drawn from the branch system route (20) due to an increase in the number of users, a new branch line is added to the branch system route (20). A branch system route construction method for an access optical fiber cable, characterized in that a closure (31) is installed and another branch system route is branched from the new branch line closure (31). 2. The access system light according to claim 1 , wherein the laying route of the branch line route (20) is selected so that the interval between the mutually opposing portions of the branch line route (20) is about 300 m or less. How to build a branch line route for fiber cable. 3. The branch system route construction method for an access optical fiber cable according to claim 2 , wherein drop closures (41 to 51) are installed in the branch system route (20) every about 150 m. The main route (10),
A trunk line closure (11) provided in the trunk line route (10);
A branch line route (20) branched from the main route (10) using the main line closure (11) and laid in the laying area;
A drop closure (41-51) installed on the branch line route (20),
Of the utility poles in the laid area, the utility pole to be used as a support is determined in advance, and the branch system route (20) is configured to trace as many of the predetermined support as possible without crossing with one stroke. , Meandering the installation route in the installation area while facing each other, and the opposite branch system route (20) is installed in the installation area so as to supply the optical fiber core wire to each user's house ,
In order to branch another branch system route from the branch system route (20) when an area where a drop system route cannot be drawn from the branch system route (20) after the branch system route (20) is laid The access system optical fiber system further comprises another branch line closure (31) installed on the branch line route (20). The main route (10),
A trunk line closure (11) provided in the trunk line route (10);
A branch line route (20) branched from the main route (10) using the main line closure (11) and laid in the laying area;
A drop closure (41-51) installed on the branch line route (20) every about 150 m ,
Among the utility poles in the laying area, the utility line to be used as a support is determined in advance, and the branch system route (20) is traced with a single stroke without crossing the predetermined support as much as possible. Laid in the laying area to supply the optical fiber core to each user's house ,
In order to branch another branch system route from the branch system route (20) when an area where a drop system route cannot be drawn from the branch system route (20) after the branch system route (20) is laid The access system optical fiber system further comprises another branch line closure (31) installed on the branch line route (20).